- pcrebuild
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Perl-compatible regular expressions
- pcrecallout
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Perl-compatible regular expressions
- pcrecompat
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Perl-compatible regular expressions
- pcrecpp
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Perl-compatible regular expressions.
- pcrematching
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Perl-compatible regular expressions
- pcrepattern
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Perl-compatible regular expressions
- pcreperform
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Perl-compatible regular expressions
- pcreposix
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Perl-compatible regular expressions.
- pcresample
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Perl-compatible regular expressions
- pcre_compile
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Perl-compatible regular expressions
- pcre_config
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Perl-compatible regular expressions
- pcre_copy_named_substring
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Perl-compatible regular expressions
- pcre_copy_substring
-
Perl-compatible regular expressions
- pcre_dfa_exec
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Perl-compatible regular expressions
- pcre_exec
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Perl-compatible regular expressions
- pcre_free_substring
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Perl-compatible regular expressions
- pcre_free_substring_list
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Perl-compatible regular expressions
- pcre_fullinfo
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Perl-compatible regular expressions
- pcre_get_named_substring
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Perl-compatible regular expressions
- pcre_get_stringnumber
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Perl-compatible regular expressions
- pcre_get_substring
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Perl-compatible regular expressions
- pcre_get_substring_list
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Perl-compatible regular expressions
- pcre_info
-
Perl-compatible regular expressions
- pcre_maketables
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Perl-compatible regular expressions
- pcre_refcount
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Perl-compatible regular expressions
- pcre_study
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Perl-compatible regular expressions
- pcre_subst
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Perl-compatible regular expression subsitution.
- pcre_version
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Perl-compatible regular expressions
- pcsrscl
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multiplie an N-element complex distributed vector sub( X ) by the real scalar 1/a
- pcstein
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compute the eigenvectors of a symmetric tridiagonal matrix in parallel, using inverse iteration
- pctrcon
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estimate the reciprocal of the condition number of a triangular distributed matrix A(IA:IA+N-1,JA:JA+N-1), in either the 1-norm or the infinity-norm
- pctrrfs
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provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular coefficient matrix
- pctrti2
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compute the inverse of a complex upper or lower triangular block matrix sub( A ) = A(IA:IA+N-1,JA:JA+N-1)
- pctrtri
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compute the inverse of a upper or lower triangular distributed matrix sub( A ) = A(IA:IA+N-1,JA:JA+N-1)
- pctrtrs
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solve a triangular system of the form sub( A ) * X = sub( B ) or sub( A )**T * X = sub( B ) or sub( A )**H * X = sub( B ),
- pctzrzf
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reduce the M-by-N ( M<=N ) complex upper trapezoidal matrix sub( A ) = A(IA:IA+M-1,JA:JA+N-1) to upper triangular form by means of unitary transformations
- pcung2l
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal columns, which is defined as the last N columns of a product of K elementary reflectors of order M Q = H(k)
- pcung2r
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal columns, which is defined as the first N columns of a product of K elementary reflectors of order M Q = H(1) H(2)
- pcungl2
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal rows, which is defined as the first M rows of a product of K elementary reflectors of order N Q = H(k)'
- pcunglq
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal rows, which is defined as the first M rows of a product of K elementary reflectors of order N Q = H(k)'
- pcungql
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal columns, which is defined as the last N columns of a product of K elementary reflectors of order M Q = H(k)
- pcungqr
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal columns, which is defined as the first N columns of a product of K elementary reflectors of order M Q = H(1) H(2)
- pcungr2
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal rows, which is defined as the last M rows of a product of K elementary reflectors of order N Q = H(1)' H(2)'
- pcungrq
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generate an M-by-N complex distributed matrix Q denoting A(IA:IA+M-1,JA:JA+N-1) with orthonormal rows, which is defined as the last M rows of a product of K elementary reflectors of order N Q = H(1)' H(2)'
- pcunm2l
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overwrite the general complex M-by-N distributed matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'
- pcunm2r
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overwrite the general complex M-by-N distributed matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'
- pcunmbr
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VECT = 'Q', PCUNMBR overwrites the general complex distributed M-by-N matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'
- pcunmhr
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overwrite the general complex M-by-N distributed matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'
- pcunml2
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overwrite the general complex M-by-N distributed matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'
- pcunmlq
-
overwrite the general complex M-by-N distributed matrix sub( C ) = C(IC:IC+M-1,JC:JC+N-1) with SIDE = 'L' SIDE = 'R' TRANS = 'N'